I came across this syntax today and couldn't work out what it meant:

// Uses the GNU C statement expression extension
#define envSet(name) ({ \
static int initialised; \
static bool set; \
(void) "" name; \
if (!initialised || !g_cacheEnv) { \
    const char *value = getenv(name); \
    set = value != NULL; \
    initialised = true; \
} \
set; \

The specific line I cannot understand is:

(void) "" name; \

Could somebody please shed some light on this?

  • I don't think it is an extension... – Eugene Sh. Sep 30 '16 at 13:42
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    @EugeneSh. the specific line I was referring to isn't, but the context it was used in is :) – OMGtechy Sep 30 '16 at 13:44
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    Well, then the title is probably misleading a bit.. – Eugene Sh. Sep 30 '16 at 13:45
  • @OMGtechy, Where's that macro from? (out of curiosity) – ilkkachu Oct 2 '16 at 7:34
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    Perhaps a clearer alternative is (void) "Must be a string literal: " name; which documents the intent, and should generate a self-documenting error message as well. A good compiler should also optimize away the string in the binary. – chi Oct 2 '16 at 12:10

It looks like a way to statically ensure that name is a string literal and not some other type.

If you do (void)"" "hello"; then it is a valid C expression.

But if you do something like (void)"" 1; then you get a syntax error.

  • 32
    It worth mentioning that prepending by (void) is to silence the "unused" (or whatever) warning. – Eugene Sh. Sep 30 '16 at 13:26
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    And perhaps also worth mentioning that this uses the fact that adjacent string literals are concatenated by the preprocessor, so it won't work if the right-hand side (name) isn't a string literal. The cast is applied to the result of the concatenation, not to "" by itself. Edit: oh, didn't see the other answer. Heh. – unwind Sep 30 '16 at 13:38
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    Technically, string literal concatenation happens after the preprocessor but before everything else. It gets a translation phase all to itself (number 6). The most obvious way this is visible is that they are not merged in -E output, and you can also observe it with various macro tricks (macro expansion is phase 4). – zwol Sep 30 '16 at 14:35
  • My comment on @ milleniumbug’s answer applies here too. – PJTraill Sep 30 '16 at 15:13
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    @PJTraill I mainly mention it for the sake of people who might be confused to see string literals not getting merged in -E output. – zwol Sep 30 '16 at 15:57

Two consecutive string literals are concatenated. Presumably it's checking whether name is a string literal. If it isn't, the compiler will report an error.

(void) cast will supress warnings like "statement with no effect".

  • 1
    thank you, I accepted the other because it provided an example of how the PP would handle it :) – OMGtechy Sep 30 '16 at 13:37
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    @OMGtechy in general, you are free to accept any answer, without giving an excuse. Just saying...:) – machine_1 Sep 30 '16 at 13:53
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    It looks as though it fails on envSet(+1). One would moreover expect getenv(name) to cause the compiler to validate name unless using suicidally weak checking options, which makes me wonder if this is meant for some peculiar environment, or just an odd exercise. – PJTraill Sep 30 '16 at 15:12
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    @machine_1 I just want to be polite when someone has taken the time to answer my question – OMGtechy Sep 30 '16 at 17:19
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    @milleniumbug: The first time a particular expansion of the macro is executed, it will call "getenv". If it is executed again, it will not call "getenv" again but simply yield whatever result it yielded the first time. That will be a useful optimization provided that neither the environment nor the passed-in string changes. It would be a bad idea if the passed-in string could change between invocations, however. String literals are generally guaranteed not to change between invocations, and represent the most vast majority of the use cases for which a function like this would be appropriate. – supercat Sep 30 '16 at 20:17

Looking at the code, I believe the purpose is to have it call getenv the first time it is called, cache the result, and then after that use the cached result without having to call getenv anymore. If getenv is used with a string literal, then all subsequent calls will ask for the same environment variable; if nothing could change that environment variable they would consequently return the same result. If the code were given a pointer to a string that subsequently changed, the cached result would likely not be correct for the new string, so the purpose of the "" trick is to ensure that can't happen.

Because every string literal that might be used would need to have its own static variable associated with it, the indicated code snippet cannot sensibly be made into a function. On the other hand, the amount of code needed for each repetition does seem a bit much. Further, if the same variable is tested at more than one place in the code, each could end up with its own set of variables and environment-checking code.

Depending upon how the function will be used, it may end up being much faster than code which needs to test an environmental variable every time it's called, and it may be usable from within a function that is called within a loop without advance setup (if client code called an "advance setup" function, the name lookup should be done there, eliminating the need to check within the loop to see if the lookup had been done).

  • This is indeed the context in which it is used, and why :) – OMGtechy Oct 1 '16 at 20:51
  • Thanks for providing the most thorough and illuminating answer so far. I can’t help thinking that …static const char * const name_const = name; /* Require a compile-time constant */ const char * value = getenv (name_const);… would have achieved the same a lot more clearly! Or am I missing something? – PJTraill Oct 2 '16 at 16:27
  • @PJTraill: Given char foo[16];, I think that approach would accept (const char*)foo, even though the contents of foo could get changed arbitrarily between queries. – supercat Oct 2 '16 at 16:31
  • I think you are right, though a sensible compiler sensibly used should warn that you are casting away const. And wilful C users can always cast themselves into the pit where the worm gnaws and the fire burns forever. – PJTraill Oct 2 '16 at 16:36
  • @PJTraill: In the absence of cast, assigning the address of foo would be a constraint violation. The cast, however, will generally suppress any diagonstic. Also, if there were a union with both a const-qualified and non-qualified member of otherwise identical types, I think writing via the non-qualified member and reading via the qualified members would be defined behavior but would not be expected to produce any diagnostic. – supercat Oct 2 '16 at 16:48

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